DE1572385C - Electrophoretic photographic device - Google Patents

Description

3 4

Allows image generation and is referred to as a barrier electrode. One; incoming especially simple structure with as little description as possible of which to use for the blocking electrode. because of its parts. the covering materials and the materials to be achieved with them

A device of the type mentioned at the beginning is also found in the above-mentioned results to solve this problem according to the invention in such a way> 5 German Offenlegungsschrift 1497 243: while formed so that the second electrode is a cylindrical image formation on the surface of the Dric and axially parallel to the first rotatable blocking electrode 10, a thin layer 14 of a susceptor Is an electrode which forms a device for the coating of finely divided photosensitive image material layers on their surface with image material particles, which are in a non-conductive carrier suspension is assigned that the suspension ίο liquid are dispersed. This suspension will layer in rolling contact with the surface of the supplied from a container 15. Within the first electrode and that the projection. rotating electrode 1 is a stationary mirror 20 device is designed such that the one on which the image to be reproduced 25 effect of the image-wise distributed radiation on the projected and through the exposure diaphragm 22 Image particle suspension in the area of the rolling 15 the surface of the suspension 14 along the contact takes place, contact line 21 between injecting electrode 1

A device according to the invention is essential and blocking electrode 10 is projected, lent a simpler structure than the previously known The transparent image to be reproduced 25 is

and does not require any special devices to be guided and moved under the light source 26 Influencing the image particle suspension in motion synchronously with the rotating first electrode 1. rich of the imaging zone. Because the projection diaphragm 17 and the lens 27 (the second electrode is cylindrical, the image is on the surface of the mirror 20 can project the particles of image applied to them, which are located within the first electrode 1 suspension is located in rolling contact with the upper and the image on the surface of the image surface the first electrode, so that 25 particulate suspension 14 along the line of contact projected by the 21 already required for image generation. The image is preferably along a Rotary movement of the electrodes has an automatic optical axis in a plane perpendicular to the upper. Approaching the image particle suspension is projected onto the vertical surface of the electrode 1, so that the image is right on the first electrode. In addition, there is distortion and a loss in tone density ensures that always fresh and well-mixed 30 is kept as low as possible. The injecting Image particle suspension in the imaging electrode 1 is grounded via line 30, and the zone is brought, which is with the known one for development serving barrier electrode 10 with direction through the use of a below that of a voltage source 31 connected to the 'turn cylindrical electrode arranged collecting. is also on earth. The polarity of the charge The container for the image particle suspension is not the opposite of the barrier electrode 10 is flawlessly guaranteed. By the invention polarity of the surface charge of the injecting So a device is created that has a no-electrode 1. .. "'..,;

The image projector consists of a light source

movement of the first electrode also for realizing 26, a condenser 28, a slide 25 and exploitation of other properties. One of the 40 an objective 27. It exposes the suspension 14, like formation of an electrophoretophotograph- which is supplied from the container 15, with 'the, see device is through the previously known · light image of the slide image to be reproduced. I Devices not suggested. During image formation, the barrier electrode becomes

In the figure, an embodiment of a 10 is synchronized with the drive motor 25 by the electrophoretophotographic device after 45 injecting electrode 1 rotated, whereby the image Invention shown, "the following execution-stoffteilchensuspensioii with the on radiant energy Licher is described in order to also include further, in the appealing photoelectrophoretic particles in Dimensionally close contact with the surface of the injecting device within the scope of the concept of the invention took and related advantages to clarify- electrode 1 is brought to the one borrowed. The figure shows a rotatable, see-through 50 location where the image is on the surface of the image Electrode 1 in the form of a drum, which is projected in the suspension of particles. this is the <present case of a layer optically trans- contact line 21. This exposure is Parent glass 2 consists of a selective particle migration on its outer surface, the sus surface caused by a thin, optically transparent 'conductive suspension liquid through, so that the capable layer 3 of tin oxide is coated. These 55 image particles on the surface of the rotating rotatable first electrode will in the following also adhere as a blocking electrode 10 and on the upper die called injecting electrode. Near the surface of the injecting electrode 1, a positive Electrode 1 is axially parallel to this, leaving behind a rotatable particle image that corresponds to the original image second electrode 10 arranged, which corresponds to one.

middle core 11 preferably good electrical 60 Das on the surface of the injecting electrical conductivity consists and with a layer 12 of trodel present developed image 40 is such so-called barrier electrode material is coated, that it is transported further. with a sticky for which, for example, baryta paper is used. belt-shaped image receiving material 41 in contact Although a barrier electrode material does not necessarily come, which is provided by two guide rollers 42 and be provided on the surface of the electrode 10 65 45 is guided to the injecting electrode 1, so However, this is noteworthy because of the fact that it improves with its peripheral speed Results in image generation too excited. A transfer roller 43 is behind the image missing. This electrode 10 is in the following also receiving material 4t and between the guide

ι mi $ 8

rollers 42 and 43 arranged. The developed image is from the surface of the injecting electrode 1. onto the surface of the adhesive image receiving material 41 transferred .. This consists expediently of an adhesive'-coated Tape and peel off the full image as it passes over the transfer roller. That about ^ The image carried can then be fixed on the tape, for example by covering its surface with a film or by using a dissolved; Binder in the carrier liquid, e.g. B. one; Paraffin wax or another binder, which is solidified when the carrier liquid evaporates. The carrier liquid can also even from a melted paraffin wax or other suitable binder in liquid State that fixes when it cools down and returns to the solid state. The fixation step is carried out in the device shown by means of a fixing device 44 performed. The residues of the image particle suspension are from the surface of the barrier electrode 10 by a brush 50 and from the surface of the injecting Electrode 1 removed by brush 51.

While . When the image formation is carried out, a negative image is formed simultaneously with the positive image on the surface of the barrier electrode 10 due to the photoelectrophoretic processes. Will . If monochrome images are produced, the positive and negative images should possibly be transferred to separate image-receiving materials. Therefore, it is favorable one; dera _i rbeschriebenen transmission system similar] ^ gjätem to use on the barrier electrode 10, vSO'-däß the negative image generated there can be also _{transferred?..} The barrier electrode material, for example the baryta paper, can also be removed from the barrier electrode 10 in order to be able to use the negative image. A conductive picture base, e.g. B. a conductive cellophane tape, can be passed between the blocking electrode 10 and the injecting electrode ί to enable the generation of a positive image on its surface, whereby the image transfer step, as it is required in the described device, and the surface of the injecting Electrode 1 does not need to be cleaned. Any suitable transparent and conductive material can be used as the image support. Typical optically transparent, conductive materials are cellulose acetate (for optical purposes), polyesters such as polyethylene terephthalate and polycarbonates, which are coated with a transparent metal layer of aluminum, copper, gold, silver or chrome by a suitable process, e.g. vacuum vapor deposition. ". '■ .;

Substances for the light-sensitive particles and the carrier liquid, the injecting electrode and the blocking electrode are described, for example, in the aforementioned German laid-open specification 1,497,243. There are also the essential variables when carrying out the process, such as. B. the electrical voltage and the like., Called. Either monochrome or multicolor images can be produced, depending on the color, the sensitivity and the number of different pigment substances in the picture suspension as well as on the colored light occurring during the exposure. Furthermore, the Spcrrelcktrodc and the injecting electrode can notwithstanding, '■ the' ,, darge.stell.teii dimensions have different size .: Not even .is the number of used blocking electrodes limited, and multiple development 5 or more electrodes may be two, in the Device be provided . ■; ■ ■■ · /: .. ■; ...; i _"v:;: ■■: V ■; ■■;: ■ '. ■ ■ ..- r' ■ ■.... ■ ··.,.:,;

The term “injecting electrode” in the present description is intended to refer to an electrode apply who is able to send electrons to those to them

ίο bound photoelectrophoretic particles Giving exposure to cause a change in the polarity of the particle charges. The designation “Blocking electrode” is intended to apply to an electrode that is not able to deliver electrons to the To release or withdraw particles, apart from a very small amount when loading, contact of the particles with the electrode surface. If all polarities used are reversed, so

• The function of the electrodes is also reversed. The injecting electrode should preferably be formed of an optically transparent glass drum and with a conventional conductive coating of tin oxide f, copper, copper iodide, gold, etc... Is provided to obtain the best results. However, other substances, e.g. B. many semiconductors, such as raw cellophane, are used, which are normally not regarded as conductors and yet are able to accept charge carriers of the correct polarity injected under the influence of an electric field. Even highly insulating substances, such as polytetrafluoroethylene, can be applied to the surface of the injecting electrode and form a functional electrode, since the charge leaving the photoelectrophoretic particles bound to this surface upon exposure only leaves the particles and remains on the non-conductive surface, whereby the exposed particles can hike. As described, but is better preferable conductive substances, the use, because they enable a cleaner separation of charge and the particles leaving upon exposure charge in the lower layers may pass such substances, whereby it * is further away from the particles. The electrode .vermieden ,, which the _between: this also, a charge accumulation on V. Electrodes could weaken the field ... ... '■. . '■'. · .- '..,. ■

The barrier electrode is designed to inject elec- tric. 'Prevent electrons in the photoelectrophoretic particles or make them largely impossible, if these reach their surface. The barrier electrode drum generally consists of a very, > soft core, which is made of a material with high electrical conductivity. Typical conductive materials are conductive rubber and metal foils made of steel, aluminum, copper and brass. Preferably has

* the core of this electrode has an electrical conductivity, which enables the required polarity differences to be formed. However, it will be a. Core If low conductivity is used, the back of the barrier electrode layer can be coated with an electri- cal. tric connection are provided. The barrier electrode layer should either consist of an insulator or a semiconductor that allows the passage of charge carriers under the influence of the prevailing Field prevented, so that the particles reaching the barrier electrode do not discharge and an oscillating movement of the partial

7 8

chen within the arrangement is prevented. Da- adhesive in the manner described or by by using an electrostatic field, the image density and resolution are improved. Even if some load carriers are carried through.

the barrier electrode layer through to the photo- In the following examples four are electrophoretic Particles arrive, a 5 different image substance suspensions can be specified, which can still be used in such a substance to the device according to the invention preferably to be used, The injecting electrode consists of with charge carriers left to charge the particles on tin oxide-coated glass, and their surface the opposite polarity is not sufficient. Also is grounded. It has a diameter of about a discharged particle becomes 18 cm at the barrier electrode. The barrier electrode consists of a hard one cling to Van der Waals forces. Also conductive rubber core of about 18 cm through In turn, other fabrics can be used, the one with a layer of water-resistant as it is coated, for example, in the above-mentioned German baryta paper. The image particles Offenlegungsschrift 1497 243 are listed. suspension becomes a negative tension of As an example of a barrier electrode material, 15 2500VoIt is applied. The image particle suspension Called baryta paper, a paper that consists of about 7 parts by weight of photoelectro-gelatin solution suspended barium sulphate super-phoretic particles in a kerosene fraction. When is pulled. The baryta paper as well as the other for the image to be reproduced becomes a Kodachrome barrier electrode Suitable materials can be used on your color slide, unless otherwise stated on the back wetted with tap water or given with 20.

be coated with electrically conductive materials. The example I
Barrier electrode layer can be used as replaceable

A three-substance mixture is produced by a layer that is either applied to the barrier layer

Electrode is drawn or by mechanical dispersion of equal proportions of a cyan-colored

Fasteners or other detachable devices 25 pigment material from the mixture of the alpha and the

is kept on this. The layer can also be a beta-form metal-free phthalocyanine, the magenta

Be part of the roller electrode itself by removing the decolorized pigment l- (4'-methyl-5'-chlorazo

neither glued on, put on as a film, sprayed on benzene-2'-sulfonic acid) -2-hydroxy-3-naphthoic acid,

or otherwise on the surface of the roll - C.I. No. 15 865, and the yellow pigment

is brought. 30 1,2,5,6-di- (C, C'-dipheny ^ -thiazole-anthraquinone, CI.

Depending on the strength of the substances used, No. 67 300, in a kerosene fraction. With exposure

If any suitable voltage can be applied, this ternary mixture results in a naturally

which preferably has a field strength of 15,750 to a colored image corresponding to the original image.

39 400 volts / mm when exposed in suspension. .

generated to get the best results. If 35 Example II

For example, a 0.18 mm thick, plastic-coated. A three-substance mixture is produced by

stretched baryta paper on a conductive surface dispersing equal proportions of the cyan pigment

made of polychloroprene as a blocking electrode, mentstoffes 3,3'-methoxy-4,4'-diphenyl-bis (l "-azo-

and in the presence of an image particle 2 "-hydroxy-3" -naphthanilide), C.I. No. 21180, des

Suspension with the injecting electrode in 40 magenta calcium pigment dye from

moved, tensions between l- (2'-azonaphthalene-l'-sulfonic acid) -2-naphthol, C.I.

1000 and 7000 volts are applied, the No. 15 630, and the yellow pigment 8,13-

better pictures usually in the higher span- dioxodinaphtho- (l, 2-2 ', 3') -furan-6-carbox-4 "-me-

voltage range can be generated. For other constituents thoxyanilide in a kerosene fraction. With exposure

parts of different strengths have to be different

Voltages are used to approximate the colored image corresponding to the original image,

to achieve the same field strength. Although the invention. .

with regard to the use of a barrier electrode example ill

from baryta paper, any 7 parts by weight of the metal-free phthalocyanine

Suitable material with a specific resistance 50 from Example I are mixed with the kerosene fraction

of about 10 ⁷ ohm cm or more are used and exposed in the manner described. Included

the. Typical fabrics with a resistance in this, however, use a black and white slide.

Area which, in the case of the device according to the invention, results in a cyan-colored image on white

can be used with a cellulose background that corresponds to the original image,

acetate and polyethylene coated papers, 55.

Cellophane, nitrocellulose, polystyrene, polytetra- Example V.

fluoroethylene, polyvinyl fluoride and polyethylene - the photosensitive particles in this example

terephthalate. consist altogether of a substituted Chrna-

To transfer the developed image from the kridon. After mixing the pigment with Surface of the injecting electrode can be any 60 kerosene fraction, the mixture is suitable as in beige Facility to be used. The overlay III exposed. The result is a magenta color carrying step can, for. B. by subtracting by means of an image that corresponds to the original image.

1 sheet of drawings

Claims (6)

1 ■ - ■■ · .. ■ ■ ·> '■ ■' ■■■■ 2 ■ "■ ■ 'trode, which, together with the first electrode, creates a patent claim: an electric field that is generated in a photoelectrophoretic system located between the two electrodes. 1. Electrophoretophotographic apparatus see image particle suspension when exposed to a cylindrical, rotatably mounted, 5 a first electrode that is image-wise transparent by means of a projection device and a closely distributed second electrode arranged through the first electrode first electrode, an electrical field of ^{image particles on one of the electrodes generates a field v} , which generates an image between the two. /
Electrodes located photoelectrophoretic ίο In the electrophoretophotographic image-image-image material suspension upon exposure to a generation photo-electrophoretic image material by means of a projection device image-wise: used particles that are in a non-conductive , distributed and suspended through the first electrode carrier liquid. This image material - transmitted activating radiation through particle suspension is between two electrodes Deposition of image particles brought on one of the 15, exposed to a potential difference and with Electrodes generated an image, thereby exposing an image to be reproduced. In the Indicates that the second electrode will practically carry out the image particle- (10) a cylindrical and axially parallel to the first suspension on a transparent, electrically conductive one rotatably mounted electrode is applied to a front plate in the form of a thin film, and direction (15) for coating its surface 20 the exposure is through this plate (12) with image suspension (14) made tensile, while a second, cylindrical is arranged so that the suspension layer is rolled over the top of the suspension in the rolling electrode '( contact with the surface (3) is the first. When suspended in Electrode (1) stands and that the projection of the liquid has an inherent charge through which it is attached means (26,27,28) is designed such that 25 the transparent electrode are bound. Through that the - action of the image-wise distributed charge exchange with this electrode change them Radiation on the image particle suspension in its polarity upon exposure, so that the exposed partial area the rolling contact takes place. Small to the roller electrode migrate and on the 2. Apparatus according to claim 1, characterized in that the first electrode is removed by this particle removal indicates that the projection means (26, 30 image remains. With such an arrangement 27, 28) outside the first electrode (1) when using single-color image material particles is ordered and the image (25) via an im or differently colored Bidstoffteilchen that on Inside the first electrode (1) arranged the same wavelength of light react, monochrome images Mirror (20) are produced on the image particle suspension. For making multicolored (14) projected. 35 pictures are mixtures of two or more 3. Verden the device according to one of the previously differently colored types of image particles Claims, characterized in that the turns, each of which is only lit by a berry Electrode (1) with a transparent and matched and opposite to other types of particles electrically conductive metal layer (3) provided different · wavelength reacts. So can is, while the second electrode (10) is a di- 40 z. B. a naturally colored image by application electrical surface layer (12) on conductive a mixture of cyan, magenta and capable core (11). yellow particles are produced, which on red, 4. Device react to one of the preceding green and blue lights. An incoming / the claims, characterized in that description of the behavior photoelectro ^ an image transmission device (41, 42, 43, 45) 45 phoretic image particles contains the German for the transfer of the at least one of the laid-open specification 1 497 243. two electrodes (1,10) generated image (40) Although with this method especially for Ver _: on a tape-shaped image receiving material (41) turning a relatively good insulating surface is provided. the roller electrode produced good quality images 5. Device according to one of the preceding 50 can be, it works relatively slowly and earth claims, characterized in that calls for a back and forth in the image generation Device for supplying a trans-movement of the electrodes. , Parent conductive image support between the U.S. Patent 2,940,847 is a first electrode (1) and the second electrode (10) known electrophoretophotographic device, is provided. 55 with one electrode cylindrical, the other 6. Apparatus according to claim 5, characterized in that the electrode is lattice-shaped. To one always indicates that the conductive image base layer consists of uniform and well-mixed image material particles to have a metallized polyethylene terephthalate suspension ready in the imaging zone, film exists. is in this known arrangement also an ultra- 60 sound generator required, which is immediately below the grid-shaped electrode is arranged and causes a thorough mixing of the image particle suspension. It should also cause the suspension particles to collide perpendicularly with the surface of the The invention relates to an electrophoretophoto- 65 cylindrical electrode allow
graphic device with a cylindrical, the object of the invention is to provide a rotatably mounted, transparent first electrode to electrophoretophotographic device and a second elec- tric located close to it, which operates continuously, a fast one